Image Analysis with beadarray

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1 Mike Smith October 30, 2017 Introduction From version 2.0 beadarray provides more flexibility in the processing of array images and the extraction of bead intensities than its predecessor. In the past intensity extraction from array images by beadarray attmepted to emulated that performed by Illumina, with minimal opportunities for deviation from this. Whilst the default approach taken in beadarray is still to emulated Illumina, we have made each step modular, in order to allow greater flexibility for the user. This vignette is designed to show how one can read the TIFF images from the BeadArray scanner and implement alternative feature intensity extraction algorithms. 1 Reading bead-level data into beadarray 1.1 Standard Illumina Image Processing The first step in a pipeline for image processing is to read both the TIFF image and the bead-level text file. The text file contains the identities of each bead, as well as the bead-centre coordinates. The image processing methods contained within beadarray use these coordinates as seed points for intensity extraction, although one can conceive of approaches where bead-centres are calculated seperately, prior to intensity extraction. However, even with such an approach the Probe ID for each bead will need to be extracted from the.txt file. tiff <- readtiff(); data <- readbeadleveltextfile(); The standard method employed by Illumina s scanner for calculating bead intensity is a four step process, described in Kuhn et al [?]. It can be summarized as:

2 Calculate background value Sharpen image Calculate foreground value Subtract background for foreground to give final intensity If the function readillumina() is called with useimages = TRUE then intensities are extracted using code that gives a very close emulation of that used by Illumina. If one wished to perform this calcuation themselves (outside of readillumina()), it can be done using the following code. bg <- illuminabackground(tiff, data[,3:4]); tiffsharp <- illuminasharpen(tiff); fg <- illuminaforeground(tiffsharp, data[,3:4]); finalintensity <- fg - bg; Each of the functions above take a matrix representing the pixel values from the TIFF image as their first argument. The background and foreground algorithms additionally take a two column matrix containing the coordinates of the bead centres. If one wished to calculate intensities for only a subset of the beads then supplying only the appropriate bead-centres in this step would achieve this. After calculating intensties they need to be inserted into a beadleveldata object. The code below shows how to create a new object and insert intensity values. However, this approach creates an empty beadleveldata object, which will be lacking any information except that which the user manually inserts. BLData <- new(class = "beadleveldata"); BLData <- insertbeaddata(bldata, array = 1, what = "Grn", data = finalintensity) An easier alternative to creating your own beadleveldata object is to use the function readillumina() to read the data as described in the main vignette. This ensures that any available data (such as sample IDs, scanner metrics, grid sizes etc.) are read in and stored. One can then choose to overwrite the values generated by readillumina(), or store alternative intensities alongside them. The example below first reads the data using the standard arguments to readil lumina(), which will extract the intensities from the.txt file. The second step overwrites those intensities with those we calculated previously (which should be very similar). The final command creates a new entry in the beadleveldata object (refered to as GrnLog ), that stores the log transform of the values we 2

3 calculated earlier. In this way the user can store a variety of intensity values if they wish to experiment with alternative forms of background subtraction, gradient removal etc. BLData <- readillumina(); BLData <- insertbeaddata(bldata, array = 1, what = "Grn", data = finalintensity) BLData <- insertbeaddata(bldata, array = 1, what = "GrnLog", data = log2(finalintensity)) 1.2 Alternative Methods The examples above have focused on applying the same intensity extraction algorithms that are employed by Illumina. However, one may wish to employ an alternative algorithm to test its performance. The example below implements an alternative method of calculating the background intensity values, as recommended by Smith et al [?]. bg <- medianbackground(tiff, data[,3:4]); We can then use the new background intensities in the same way as previously, before inserting them into the beadleveldata object. 2 Parallel Processing We have included some support for parallel processing in the functions to perform sharpening of the image and the two background calculation methods. These can offer some increase in throughput when one is using a single computer to analyse a small number of samples. However if one is dealing with a large number of arrays then there are probably more efficient mechanisms to achieve speedup, such as reading seperate chips on multiple machines (or R sessions) and combining the data after they have been read. This multicore support is implemented at the C level using the OpenMP library. Unfortunately adding support for this generates a warning on Bioconductor, so support needs to be added manually and the package build from source. The procedure is slightly different for users on Linux and Windows machines. Linux users should create a file called Makevars in the beadarray/src directory and add the following two lines before building the package from source. 3

4 PKG_CFLAGS=-fopenmp PKG_LIBS=-lgomp Windows users should create a file called Makevars.win in the beadarray/src directory and add the following two lines before building the package from source. PKG_CFLAGS=-fopenmp PKG_LIBS=-lgomp -mthreads -lpthreadgc2 3 Session Info sessioninfo() R Under development (unstable) ( r73567) Platform: x86_64-pc-linux-gnu (64-bit) Running under: Ubuntu LTS Matrix products: default BLAS: /home/biocbuild/bbs-3.7-bioc/r/lib/librblas.so LAPACK: /home/biocbuild/bbs-3.7-bioc/r/lib/librlapack.so locale: [1] LC_CTYPE=en_US.UTF-8 LC_NUMERIC=C [3] LC_TIME=en_US.UTF-8 LC_COLLATE=C [5] LC_MONETARY=en_US.UTF-8 LC_MESSAGES=en_US.UTF-8 [7] LC_PAPER=en_US.UTF-8 LC_NAME=C [9] LC_ADDRESS=C LC_TELEPHONE=C [11] LC_MEASUREMENT=en_US.UTF-8 LC_IDENTIFICATION=C attached base packages: [1] parallel stats graphics grdevices utils datasets [7] methods base other attached packages: [1] beadarray_ ggplot2_2.2.1 Biobase_ [4] BiocGenerics_ knitr_1.17 loaded via a namespace (and not attached): [1] Rcpp_ highr_0.6 [3] XVector_ compiler_3.5.0 [5] plyr_1.8.4 GenomeInfoDb_

5 [7] zlibbioc_ bitops_1.0-6 [9] tools_3.5.0 base64_2.0 [11] digest_ bit_ [13] evaluate_ RSQLite_2.0 [15] memoise_1.1.0 tibble_1.3.4 [17] gtable_0.2.0 rlang_0.1.2 [19] DBI_0.7 yaml_ [21] GenomeInfoDbData_ stringr_1.2.0 [23] S4Vectors_ IRanges_ [25] stats4_3.5.0 rprojroot_1.2 [27] bit64_0.9-7 grid_3.5.0 [29] AnnotationDbi_ rmarkdown_1.6 [31] limma_ BeadDataPackR_ [33] reshape2_1.4.2 blob_1.1.0 [35] magrittr_1.5 backports_1.1.1 [37] scales_0.5.0 htmltools_0.3.6 [39] GenomicRanges_ BiocStyle_2.7.0 [41] colorspace_1.3-2 stringi_1.1.5 [43] openssl_0.9.7 RCurl_ [45] lazyeval_0.2.1 munsell_0.4.3 [47] illuminaio_

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